CN105890068A - Air conditioner - Google Patents

Abstract

The invention provides an air conditioner. The air conditioner comprises an outdoor unit, an indoor unit, a water tank, a second condenser; the outdoor unit comprises a head cover, a panel and a side plate and is internally provided with a first condenser, a partition plate, a motor and a support; the indoor unit comprises a first drain pipe used for draining condensed water; the water tank is located between the first condenser of the outdoor unit and the head cover; the second condenser is arranged in the water tank and communicated with the first condenser; the tail end of the first drain pipe is communicated in the water tank and used for leading the condensed water into the water tank. According to the air conditioner, the condensed water produced by the indoor unit is led into the water tank of the outdoor unit through the drain pipe, the second condenser is arranged on the water tank, the second condenser in the water tank is cooled through the condensed water, the purpose of fully utilizing the low-temperature condensed water is achieved, the capacity and energy efficiency of the product are improved, the requirement that the air conditioner is reduced to the same refrigerating capacity, and power consumption is low is met, and the economic benefit is brought to the user.

Description

A kind of air-conditioner

Technical field

The invention belongs to air-conditioning and Refrigeration Engineering technical field, specifically, relate to a kind of air-conditioner utilizing condensation water cooled condenser.

Background technology

Existing air-conditioning products almost will be significantly lower than the condensed water of outer temperature during hot weather uses and is immediately discharged to outdoor, the most well utilizes this condensation at low temperature water.Under the background advocating energy-saving and emission-reduction, raising ability efficiency energetically, if it is possible to make full use of the condensed water of discharge from indoor set and, to cool down the condenser of off-premises station, be beneficial to improve the ability efficiency of air-conditioning products.

Therefore, the condensed water how effectively Collection utilization is discharged from indoor set cools down the condenser of off-premises station, then be the problem that faced of the present invention.

Summary of the invention

The invention provides condensed water that a kind of Collection utilization discharges from indoor set to cool down the air-conditioner of the condenser of off-premises station.

For solving above-mentioned technical problem, the present invention is achieved by the following technical solutions:

A kind of air-conditioner, including,

Off-premises station, it includes top cover, panel, side plate, is internally provided with the first condenser, dividing plate, motor and support thereof；

Indoor set, including the first row water pipe for discharging condensed water；

Also include,

Tank, between the first condenser and the top cover of described off-premises station；And

Second condenser, is arranged in described tank, and connects with described first condenser；And

Described first drainage pipe end is communicated in described tank, for importing in described tank described condensed water to cool down described second condenser.

Alternatively, described tank is seated on described first condenser, and with described electric machine support, dividing plate, panel and wherein side plate be fixedly connected.Buckle-type or screw is generally used to connect fixing.

Preferably, described tank is connected fixing with electric machine support, dividing plate.

Alternatively, described second condenser is provided with two end plates, and said two end plate coordinates fixing connection by expansion tube process with described second condenser respectively.

Alternatively, described second condenser is connected by the end plate at its two ends is fixing with the cooperation of described tank.Buckle-type or screw is used to connect fixing.

Alternatively, described tank inner bottom surface being provided with at least one boss, boss height is set to 0.5～20mm.By arranging boss, make the second condenser directly will not contact with bottom of gullet, beneficially condensed water flowing bottom the second condenser, increase the heat exchange efficiency of the second condenser.

Alternatively, one end of described tank is provided with condensed water water inlet, and this condensed water water inlet is connected with described first row water pipe.

Alternatively, the position closing on described condensed water water inlet in described tank is provided with the draw-in groove of connection water channel two lateral walls, is installed with drainage screen in described draw-in groove.

Alternatively, described tank closing on described water inlet one end and is additionally provided with discharge outlet, the bottom of tank is provided with second row water pipe, and described discharge outlet connects second row water pipe；

Alternatively, the front end being positioned at described discharge outlet in described tank is provided with sealing valve and drives the motor of described sealing valve rotary motion, and described sealing valve one end is connected with described tank, and the other end is connected with described motor shaft cooperation；At tank, a block reinforcement is set at sealing valve closure state, spacing for ensureing that motor drives during sealing valve closing motion, it is ensured that sealing valve is closed into position, it is to avoid to produce that Guan Bi is not in place and the situation leaked.

Being provided with a groove on described sealing valve, this groove is less than the lowest part of basin sidewall.

Preferably, described tank being provided with discharge outlet away from described water inlet one end, and arranges a water retaining ribs near this discharge outlet, this water retaining ribs is less than the lowest part of basin sidewall, and the bottom of tank is provided with second row water pipe, and described discharge outlet connects second row water pipe.

Preferably, the side of described tank is provided with long and narrow catchment side by side, described catchment is provided with some osculums, condensed water flow to the first condenser through described osculum, first condenser is played cooling effect, being provided with groove between this long and narrow catchment and described tank, this groove is less than the lowest part of basin sidewall.

Alternatively, described bottom of gullet is set to slope, and the gradient is set between 0.1 °～45 °, and discharge outlet is in the lowest order on slope.

Compared with prior art, advantages of the present invention and good effect are:

The condensed water that indoor set is produced by the present invention imports to by drain pipe, in the tank of off-premises station, be provided with the second condenser on tank, by the second condenser in condensed water bosh, reaches to make full use of the purpose of condensation at low temperature water.Tank is provided with condensed water filter, for purification and condensation water；And it is provided with discharge outlet, for discharging the condensed water being utilized.

Owing to the present invention is provided with the second condenser, thus increasing the heat exchange area of integral condenser, the second condenser will first be cooled down by condensed water, then is used for condensed water cooling down the first condenser.

User can be met using during air conditioner refrigerating, owing to taking full advantage of condensed water, product ability efficiency can be improved, reduce in the case of equal refrigerating capacity, the requirement that power consumption is less, bring economic interests for user.

Introducing the concept of a series of reduced form in Summary, this will further describe in detailed description of the invention part.Present invention part is not meant to key feature and the essential features attempting to limit technical scheme required for protection, does not more mean that the protection domain attempting to determine technical scheme required for protection.

Below in conjunction with accompanying drawing, describe advantages and features of the invention in detail.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the overall structure schematic diagram of air-conditioner specific embodiment of the present invention；

Fig. 2 is off-premises station back side internal structure schematic diagram；

Fig. 3 is off-premises station end face internal structure schematic diagram；

Fig. 4 is tank and the second condenser structure schematic diagram；

Fig. 5 is tank one structural representation；

Fig. 6 is tank another kind structural representation；

Fig. 7 is partial enlarged drawing at the A of Fig. 4, and wherein sealing valve is in closure state；

Fig. 8 is partial enlarged drawing at the A of Fig. 4, and wherein sealing valve is in opening；

Fig. 9 is the B-B sectional view of Fig. 5；

Figure 10 is off-premises station end face internal structure schematic diagram, and wherein the second condenser uses another kind of structure；

Figure 11 is off-premises station end face internal structure schematic diagram, and wherein discharge outlet arranges the second structure；

Figure 12 is off-premises station overall structure schematic diagram (removing top cover), and wherein drainage pattern uses the third version.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further detailed explanation.Should be appreciated that embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

In the following description, a large amount of concrete details is given to provide more thorough understanding of the invention.It will be apparent, however, to one skilled in the art that the present invention can be carried out without these details one or more.In other example, in order to avoid obscuring with the present invention, technical characteristics more well known in the art are not described.

In order to thoroughly understand the present invention, detailed structure will be proposed in following description.Obviously, the execution of the present invention is not limited to the specific details that those skilled in the art is familiar with.Presently preferred embodiments of the present invention is described in detail as follows, but in addition to these describe in detail, the present invention can also have other embodiments.

Below in conjunction with accompanying drawing, embodiments of the invention are described in detail.

In describing the invention, it is to be understood that term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more this feature.In describing the invention, except as otherwise noted, " some " are meant that two or more.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " is installed ", " being connected ", " connection " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood with concrete condition.

The embodiment of the present invention is in order in air-conditioner process of refrigerastion, condensed water that effectively Collection utilization is discharged from indoor set can cool down the condenser of off-premises station, by arranging tank in off-premises station, import in tank by drain pipe, tank is provided with the second condenser, by the second condenser in condensed water bosh, reach to make full use of the purpose of condensation at low temperature water.Owing to the embodiment of the present invention is provided with the second condenser, thus increase the heat exchange area of integral condenser, second condenser will first be cooled down by condensed water, it is used for condensed water again cooling down the first condenser, user can be met and using during air conditioner refrigerating, owing to taking full advantage of condensed water, product ability efficiency can be improved, reduce in the case of equal refrigerating capacity, the requirement that power consumption is less, bring economic interests for user.Specifically, with reference to the detailed description of following example.

As shown in Figure 1, it it is the overall structure schematic diagram according to one embodiment of air-conditioner of the present invention, air-conditioner is formed (on the present embodiment without the online pipe affected not shown in figure) by off-premises station 100, indoor set 200 and first row water pipe 210, as shown in Figure 3-4, wherein, off-premises station 100 includes top cover 110, panel 102, side plate 103, is internally provided with the first condenser 130, dividing plate 104, motor (not shown) and electric machine support 101；Indoor set 200 includes the first row water pipe 210 for discharging condensed water；Also include tank 120, between the first condenser 130 and the top cover 110 of off-premises station 100, and second condenser 140, it is arranged in tank 120, and connect with the first condenser 130, and first row water pipe 210 end is communicated in tank 120, for condensed water is imported in tank 120 to cool down the second condenser 140.

Under refrigeration or dehumidification mode, the condensed water that indoor set 200 produces is in first row water pipe 210 flows into the tank 120 on off-premises station 100.As in figure 2 it is shown, tank 120 is arranged between the first condenser 130 and the top cover 110 of off-premises station 100.As shown in Figure 3, tank 120 is placed on 130 condensers, and be fixedly connected with electric machine support 101, dividing plate 104, side plate 103 and panel 102, connected mode can use but be not limited to buckle or screw and connect fixing, and in the case of ensureing to connect reliably, preferably select to be connected with electric machine support 101 and dividing plate 104 and fix.

Fig. 4 is to place the second condenser 140 in tank 120, is provided with end plate 141 and end plate 142, end plate 141 and end plate 142 and coordinates fixing connection by expansion tube process and the second condenser 140 in the second condenser.Second condenser is connected by end plate 141 and end plate 142 are fixing with tank 120 cooperation, and connected mode can use buckle or screw to connect, it is illustrated that uses four screws to connect.As it is shown in figure 5, be provided with boss 121 on tank 120, the quantity of boss is at least 1, and it highly may be configured as 0.5～20mm, and in figure, preferred amount is 5, and height is 8mm.As it is shown in figure 5, by arranging boss 121 on tank 120, make the second condenser 140 directly will not contact bottom tank 120, beneficially the flowing bottom the second condenser 140 of condensed water, increases the heat exchange efficiency of the second condenser.When boss 121 quantity is 1, also can form the mode such as Fig. 6, boss 121 is set to the mode of a strip.

Fig. 7 is partial enlarged drawing at the A of Fig. 4.Being provided with condensed water water inlet 123 on tank 120, condensed water water inlet 123 is connected with first row water pipe 210；Drainage screen 170 is arranged in the draw-in groove 124 of tank 120, is used for filtering condensed water, makes the dust spot produced from indoor set 100 be unable to reach the second condenser 140, it is ensured that for the free from admixture dirt of the condensed water of cooling the second condenser 140；Also setting up discharge outlet 122 on tank 120, discharge outlet 122 connects second row water pipe 122a, for being discharged by condensed water；Sealing valve 180 is arranged on the front end of discharge outlet 122, and one end is connected with tank 120, and the other end is connected with motor shaft cooperation, drives sealing valve 180 to rotate by motor 190, thus realizes unlatching and the Guan Bi of sealing valve 180.Closure state as it is shown in fig. 7, opening as shown in Figure 8.At tank 120, a block reinforcement 125 is set at sealing valve 180 closure state, spacing for ensureing that motor 190 drives during sealing valve 180 closing motion, it is ensured that sealing valve 180 Guan Bi puts in place, it is to avoid to produce that Guan Bi is not in place and the situation leaked.Being provided with a groove 181 on sealing valve 180, this groove 181 is less than the lowest part of tank 120 sidewall, for avoiding because condensed water too much overflows the risk of tank 120.

Running illustrates:

Air-conditioner carries out freezing or during dehumidification mode, and the condensed water that indoor set 200 produces enters in tank through first row water pipe 210 by tank water inlet 123, and now motor 190 drives sealing valve 180 to rotate and is in closure state；Flow into the filtration by drainage screen 170 of the condensed water in tank 120, condensed water after cleaning is sent in the tank installing the second condenser 140, the condensed water being significantly less than outdoor carries out water cooling to the second condenser 140 of high temperature, accelerates the heat exchange efficiency of the second condenser.When in condensed water substantial amounts of inflow tank 120, second condenser cannot evaporation condensed water timely, when the water level of condensed water arrives the groove 181 arranged at sealing valve 180, unnecessary condensed water will flow out from groove 181, outdoor is drained into, it is to avoid condensed water overflows the danger of tank 120 through discharge outlet 122 and second row water pipe 122a.

When air-conditioner is stopped using in shutdown, motor 190 drives sealing valve 180 to rotate, sealing valve 180 is made to be in opening, now condensed water can be drained into outdoor through discharge outlet 122 and second row water pipe 122a, if not using the overlong time of air-conditioner, and the water in tank not being discharged, will result in the aqueous metamorphism in tank, a large amount of antibacterials are attached on the second condenser 140, affect heat exchange efficiency and the service life of the second condenser 140.Further, when air-conditioner is stopped using in shutdown, by in the water evacuation procedure in tank 140, drainage screen 170 can be recoiled by the condensed water at the second condenser 140, drainage screen 170 is played the effect of cleaning, and can together flow into discharge outlet 122 with condensed water by being arrheaed the dirt near tank 120 water inlet 123 by drainage screen 170 filtration and drain into outdoor through 122a, it is ensured that tank 120 and the clean cleaning of drainage screen 170.Further, for making condensed water discharge completely totally, can be set to slope C bottom tank 120 water storage from tank 120, the gradient may be configured as between 0.1 °～45 °, as it is shown in figure 9, discharge outlet 122 is in the lowest order of slope C.

Due to the existence of the second condenser 140, the area of integral condenser will be increased, increases condenser radiating effect in the case of not changing existing casing size.In order to increase the heat exchange area of the second condenser 140 further, the layout of the second condenser 140a and tank 120 can be made adjustment as shown in Figure 10, the version of the second condenser 140a shown in Figure 10 increases its heat exchange area further.

In such scheme, due to the water inlet 123 being arranged on tank 120 and discharge outlet 122 location layout close reason, may produce situations below: but when the condensate water level in tank 120 exceeds the height of groove 181 on sealing valve 180, along with condensed water continues to enter tank 120 from water inlet 123, condensed water existence arrives the tank side of the second condenser 140 without drainage screen 170 and directly passes through the possibility that the groove 181 on sealing valve 180 is got rid of, the new condensation at low temperature water flowed into made does not reaches the effect of cooling the second condenser 140, reduce the utilization rate to condensation at low temperature water.Following scheme improvement can be carried out for this:

Scheme one: as shown in figure 11, cancel the groove 181 on sealing valve 180, increasing discharge outlet 126 at tank 120 away from water inlet side simultaneously, and arrange a water retaining ribs 127 near discharge outlet 126, the height of water retaining ribs is identical with the groove 181 on original sealing valve 180.When condensate water level is higher than the height of water retaining ribs 127, condensation flow is to for flowing into tank 120 from water inlet 123, ensure that condensed water passes through drainage screen 170 and cools down the second condenser 140, when in condensed water substantial amounts of inflow tank 120, second condenser cannot evaporation condensed water timely, condensed water will cover water retaining ribs 127, finally flow out through discharge outlet 126, thus realize making full use of condensed water and cool down the purpose of the second condenser.

Scheme two: as shown in figure 12, cancel the groove 181 on sealing valve 180, on tank 120, increase by an elongated drainage 127a simultaneously, drainage 127a and the tank placing the second condenser 140 separate, it is provided with and a groove 126a between drainage 127a and the tank placing the second condenser 140, groove 126a is the most identical with the groove 181 on original sealing valve 180, arranges many tiny osculums 128 in drainage 127a side.When condensate water level is higher than the height of groove 126a, condensation flow, to for flowing into tank 120 from water inlet 123, cools down the second condenser 140 by drainage screen 170.When in condensed water substantial amounts of inflow tank 120, second condenser cannot evaporation condensed water timely, condensed water covers groove 126a, arrive drainage 127a, condensed water is flowed in the first condenser 130 for supporting tank 120 by the tiny osculum 128 in drainage 127a, utilizes condensed water that the first condenser 130 is carried out cooling effect, further increases the utilization rate of condensed water, improve the heat exchange efficiency of condenser, thus improve the ability efficiency of product.

Most of areas, the whole world have the generation of condensed water during air conditioner refrigerating, but it is not excluded for some regional evaporated condensation water being dried especially to produce, the area that evaporated condensation water produces is not suitable for product of the present invention, the present invention is useful under the pattern of air conditioner refrigerating or dehumidifying, can popularize at domestic air conditioner industry.

The above, be only presently preferred embodiments of the present invention, is not the restriction that the present invention makees other form, and any those skilled in the art are changed possibly also with the technology contents of the disclosure above or are modified as the Equivalent embodiments of equivalent variations.But every without departing from technical solution of the present invention content, any simple modification, equivalent variations and remodeling above example made according to the technical spirit of the present invention, still fall within the protection domain of technical solution of the present invention.

Claims (10)

1. an air-conditioner, including,

Off-premises station, it includes top cover, panel, side plate, is internally provided with the first condenser, dividing plate, motor and support thereof；

Indoor set, including the first row water pipe for discharging condensed water；

It is characterized in that: also include,

Tank, between the first condenser and the top cover of described off-premises station；And

Second condenser, is arranged in described tank, and connects with described first condenser；And

Described first drainage pipe end is communicated in described tank, for being imported in described tank by described condensed water.

Air-conditioner the most according to claim 1, it is characterised in that: described tank is seated on described first condenser, and with described electric machine support, dividing plate, panel and wherein side plate be fixedly connected.

Air-conditioner the most according to claim 1, it is characterized in that: described second condenser is provided with two end plates, said two end plate coordinates fixing connection by expansion tube process with described second condenser respectively, and described second condenser is connected by the end plate at its two ends is fixing with the cooperation of described tank.

Air-conditioner the most according to claim 1, it is characterised in that: being provided with at least one boss on described tank inner bottom surface, boss height is set to 0.5～20mm.

Air-conditioner the most according to claim 1, it is characterised in that: one end of described tank is provided with condensed water water inlet, and this condensed water water inlet is connected with described first row water pipe.

Air-conditioner the most according to claim 5, it is characterised in that: the position closing on described condensed water water inlet in described tank is provided with the draw-in groove of connection water channel two lateral walls, is installed with drainage screen in described draw-in groove.

Air-conditioner the most according to claim 6, it is characterised in that: closing on described water inlet one end on described tank and be additionally provided with discharge outlet, the bottom of tank is provided with second row water pipe, and described discharge outlet connects second row water pipe；

The front end being positioned at described discharge outlet in described tank is provided with sealing valve and drives the motor of described sealing valve rotary motion, and described sealing valve one end is connected with described tank, and the other end is connected with described motor shaft cooperation；

Being provided with a groove on described sealing valve, this groove is less than the lowest part of basin sidewall.

Air-conditioner the most according to claim 6, it is characterized in that: on described tank, be provided with discharge outlet away from described water inlet one end, and a water retaining ribs is set near this discharge outlet, this water retaining ribs is less than the lowest part of basin sidewall, the bottom of tank is provided with second row water pipe, and described discharge outlet connects second row water pipe.

Air-conditioner the most according to claim 6, it is characterized in that: the side of described tank is provided with long and narrow catchment side by side, described catchment is provided with some osculums, condensed water flow to described first condenser through described osculum, to the first condenser cooling, being provided with groove between this long and narrow catchment and described tank, this groove is less than the lowest part of basin sidewall.

10. according to air-conditioner according to any one of claim 7-9, it is characterised in that: described bottom of gullet is set to slope, and the gradient is set between 0.1 °～45 °, and discharge outlet is in the lowest order on slope.